Ashly Electronic Amplifier none User Manual

makes it sound harsh. One thing that is clear, though, is that a steeper
slope will afford more protection to high frequency drivers than a gentle
rolloff. For the majority of audio applications, a 12dB per octave crossover

will be found to be perfectly adequate. Where extra protection is deemed

necessary, choose the 18dB per octave type.

SUNMED PHASE RESPONSE

Nearly

all

crossovers

introduce

phase

shifts

that

vary

as

a

function

of

frequency, but this is not considered to be a problem since our ears don't
seem to be very sensitive to phase shift. Just to set up a suitable A/B

comparison to test the audibility of phase shift would be quite a feat, since
it would require near-perfect speakers and source material. After all, phase
shifts

are

introduced

virtually

everywhere

in

an

audio

system;

microphones,

transformers,

equalizers

of

all

kinds,

effects

units,

crossovers

and

speakers

all contribute significant amounts of phase error. In short, crossover phase
shift effects are not considered to be an important factor in the accuracy of
a sound system.

SETTING UP YOUR SYSTEM FOR ACCURATE REPRODUCTION

In order to realize the best possible performance from your sound system, it
is

desirable

to

strive

for

the

best

possible

phase

relationships

between

separate drivers. Since it is impossible to have all of your speakers radiate
their energy from the same point in space, your only option is try to keep
their acoustical centers coherent in at least one plane, i.e., try to stack
the speakers with the drivers centered in one vertical line. This will

minimize phase cancellations and improve

tMC

projection pattern of the systi

Notice

we

aren't

saying

you'll

achieve

perfect

phase

correlation

in

your

system, because you won't. There are simply too many variables in a multi­
speaker system.

For example, we've recommended that you stack your speakers in one vertical
plane,

but

what

if

you've

got

2,

4,

or

6

bass

bottoms

per

side,

all

reproducing the same frequency? In that case, you've got wavefronts radiating

from

physically

separate

points

in

both

the

vertical

and

horizontal

plane,

which means that the system's polar pattern and amplitude response will be

subject to the way those wavefronts add and subtract as they recombine.

Then, there's the knotty problem of determining where the wavefront actually
emanates from in a real speaker. Does it radiate from the diaphram in the
driver,

and

should

that

be

considered

the

acoustical

source

for

alignment

purposes? Or, if that driver is connected to an exponential horn, should we

consider the mouth of the horn the correct alignment point? What's the phase

relationship between the mouth of the horn and the diaphram? What about a 15
inch woofer flush-mounted to a ported enclosure? Or a dual 15 inch folded "W"
cabinet—where is its "acoustical center"? As you can see, there's room for

error in a multi-speaker system. Generally, the more complex the system, the
more difficult the phasing question.

All of this is not to say that contemporary sound systems don't work or sound

good—they can and do. Just keep in mind that there are physical limitations
in a real sound system that make perfect phase alignment nearly impossible.
Again, if you'11 try to keep the system al igned in at least one piane, you'l 1
probably be doing the best you can.

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